Dough divider



June 20, 1944.

c. B. SEEM DOUGH DIVIDER Filed May 18, 1943 5 Sheets-Sheet l i INVENTOR. ch01, r Lc 5 6 6% HIS ATTORNEYS June '20, 1944. c. B. SEEM 2,351,839

- nova mvnmn Filed. May 18, 1945 5 sheets-Sheet 2 III 'IIIIIIIIA 4 l w L 59 60 -71 il -5&

U H L 69 I I 65 l I l l l i 1 1 I i I 1 1 I I 49 INVENTOR.

Char 6632356671 HIS ATTORNEYS,

June 20, 1944.

c. B. SEEM po'uen DIVIDER Filed May 18, 1945 5 Sheets-Sheet 4 INVENTOR. mar 5&5 6.66m 4 BY 7 r I %A% f HIS ATTORNEYS c. B. S EEM DOUGH DIVIDER Filed May 18, 1945 5 Sheets-Sheet 5 lOl I INVENTOR.

CZ/m1 I ms AT TORNEYS June 20, 1944,

Patented June 20, 1944 UNITED STATES Y 135133.91

' notion nlvmnn Charles B. Seem, Beacon, N. =Y., asslgnor to p y Dutchess'Tool Company, 1110., 'Beacon,Nl Y., a. corporation of New York f ApplicationiMay 18,1943, Serial to]; io7-1 5);,I

21 Claims,

This invention relates to improvements in dough handling apparatus and, particularly, to that type of baker's machinery commonly referred to as dough dividers, wherein increments of dough are severed from amass of dough ma hopper and transferred to one or more scaling or measuring pockets, each of which i adapted to receive a certain amount of dough, whereby each successive increment deliveredto the scaling pockets is divided into two or more lumps of predetermined weight. a a

One object of the present invention is to provide a divider of this type in which a minimum number of moving parts are exposed at the ex terior of the machine; thusmateriallyincreasing the safety factor of the machine so far as concerns the possibilities of attendants being injured while operating the machine. I 1

In this connection, these machines usually embody means for varying or regulating the size of the scaling or measuring pockets, and a fur ther object is to provide a regulating mechanism that remains stationary during the normal oper ation of the machine, whereby'adjustment ofthe pockets, at any time, is facilitated.

More specifically, the invention contemplates a dough divider of the type indicatedywherein the measuring pockets are stationary, the dough being transferred from the'hopper to said pockets by a moving transfer head-whichmoves into and out of registry with the pockets and being forcibly expelled from said pockets by suitable pressure actuated means, the operation of whichis synchronized in such relation to the movement of the transfer head as to expel the lumps-of dough from the pockets while the head is out of registry with said pockets.

Another object is to provideaa dough divider wherein the quantity of dough :withdrawn .from the dough hopper can bereadily varied or reg ulated, depending upon the size of the lumps it is desired to form.

In carrying out the jpresent'invention it-is'pre ferred that the transfer head and the mechanism for expelling the divided lumps from the measuring pockets be fluids actuated, although other forms of motive power are susceptible of use.

The scaling or measuring pockets have reciprocating plungers therein which are'retractable a predetermined distance, depending upon the size of the lumps it is desired to-fo'rm in the machine, while the advance movement ofthe plungers expels the lumps from the pockets, and a still further object of the invention i to pros vide a simplified-arrangement of plungerstwhich will permit'them to be readily'whollyremoved from the pockets when itis necessaryto clean them'achine: '5' r With these and other objects in vieW,:the, in-. vention' consists incertain details- 0f construc-' tion and 'combinationsand arrangements of parts, all-"as will hereinafter :be'more ifullyzexe plained and the novel :features thereof :pa'rtics ularly 'pointed' out in itherappended' claims; In the accompanyinga'drawings; 1 v s Figure 1 consists ofxa vertical tcross-sect'onal view through: the hopper, transfer head and measuring or scaling. pocketsof a dough xdivicler, illustrating theprteferred embodiment of; the present invention, and a -diagrammatical; illustration of an arrangement for hydraulically ac tuating said structural elements which :are shown inthe positions they occupy while. dough is fed from said hopper to the :so-called transferhead; Fig. 2 is a. sim'ilaruviewillustrating the transfer :head positioned iniregistry with Zthe: scaling pockets of thedividerzhead; I l 1 Fig. 3 isan-Iemargedr'side elevatiorL'partly in section; of the-indexing mechanism xfortregulat ing the size of'the scalingpockets; i --Fig. 4 is a top plan view, partly'in section -of thestr'uctureshown in Fig.3; i w; t Fig. '5 is 1an end=elevation of'the' mechanism shownin'Figsjand y 5 w r Figsyo; 7- and 8 "are detailsectionalWieWsof valves used in the conduits of. the hydrauli'csys tem for actuating "theidividing mechanism ;a and :Fig. 9 is an enlargedw longitudinalr: sectional view of the adjusting -mechanismfor varying: the

quantity 1 of dough admitted to the transfer head compartment-fromthe hopper I As the" mechanism for withdrawing the dough from the hopper and dividingit into lumps of desiredsize: constitutes the; essenceof the present :invention, {disclosure and detailed description of 1 the supporting frame and the mounting of, the various instruments thereon; iss deemed unnecessary. Sufiiceit' :to say that the ihopper i0 is rigidly mounted on a casting"! l-which'may be termed the divider:- 'head,:; and. comprises the scaling pockets I2. -This-casting'or dividenhead is; in turn; rigidly mounted on the *frame' 'of.'the machine, a portion of which is indicated ems. The casting H hasanrextension 14 having spas. sage 15 which serves asvthe hopper discharge opening through which dough from' hopper l 0 passes into a compartment 16 "in the *so-call'ed transfer head I'l,-which may'be' moved back'and forth to alternately position saidbo-mpartment ing pockets I2. Preferably, casting I2 is formed with a curved inner surface and the transfer head is semi-circular in cross-section and has a rocking or oscillating motion for the purpose of positioning its compartment IS in registry with the hopper and scaling pockets, as shown in Figs. 1 and 2, respectively. ,For instance, the transfer-headmay be mounted on a shaft I 8 journaled in the sides of frame l3 and adapted to be rocked by means of a segment l9 mounted .1

on the shaft and a reciprocatory rack 20 which is actuated as will be later described.

Slidable in compartment, H; of. the H head is a plunger 2| which; is fadaptcd th blili tracted when the compartmenti'sin"d'ough re'- ceiving position in registry with the hopper dis charg and to be advanced when said conipa'rtment is in registry with the scaling pocketstm force the dough from said compartment'into -said pockets. Similarly, :each scaling pocket l2 has-a plunger 22 slidable therein for'discharging the lumps from said pockets after the'transfer head has returned to its dough-receiving position. "The lumps cfdo'ugh from the scaling'pockets arereceivedon anendless traveling conveyor belt 23 by which they are conveyed to any desired point. I

thus far described, theoperation of the machine consists in-charging an increment of dough from the hopper'int'o compartment iii of the transfer head while the latter is inthe position illustrated in Fig. 1; moving'the transfer head to the position shown'in-Fig.' 2, where the dough in cornpaitment iiis forcibly transferred into the scal ing pockets; returning the transfer heacl--to"its original position; and discharging the lumps from the pockets; p These movements of theseveral parts are imparted thereto in'proper timed relationship, pref erablyrby hydraulically actuating the plunger 2| in the transfer head; the rack and the plungers 22 in the scaling pockets, but it. is preferred that the plungers 22 only be advanced hydraulically so that their retraction will depend upon the dough being forced into their respective pockets,

for reasons which will presently appear. For in stance, rack 20 is carried by or'formsa part of piston rod 24 of a piston '25 in a cylinder 23, and plunger 2| is carried by piston rod 21 of piston 28 in cylinder 29, the latter being mounted on thetra'nsfer head to swing with said head.-

by admitting'actuating fluid to'one end or theother of said cylinders", 29, the rack 20 and the plunger 2| can be moved back and forth asdes'ired'. On the other hand; each plunger 22 in the scaling pockets is'provided-witha stem 30 slidable in a sectional bracket .or guide having ..a detachable top plate 3| and the outer ends of said stems are adapted to engage a cross-plate 32 mounted on piston rod 33 *of'a piston 34"iria cylinder 35. As the'stems '30 are not attached to cross-plate 32, it will be'apparent thatthe stems will be advanced bysaid plate onlywhen in contact therewith and that said plate cantberetracted by piston 34 without affecting the plungers 22, leaving the latter in their previously advanced position until they are forced back *intheir pockets and against plate 32 by dough entering the pockets. Hence, by determining the distance plate 32 is retracted, the inward or retractive movement allowed plungers 22 under; the influence of dough forced into the po'ckets'can be regulated. For this purpose, adjustable stops are provided for limiting the re tractionof plate 32 and, as previously indicated,

2,851,839 :5 13 in registry with said passage I5 and the scalscrew, the latter with the sprockets and chain ifcanb'ei moved longitudinally of the pockets toward or from theouter ends of the extensions 31. 'lfhe"- ,'sprockets ,33' are adapted to function as stops forthe cross-plate 32, and the latter is preferably supported at its ends on seamless tubes 43 which,"in"turn, are slidable on extensions 31. Thus, when the plate 32 is moved outwardly under the influence of dough entering the scaling pockets, the limit of such retractive movement will be-determined by the location of the sprockets 39. As will be apparent, by "turningscrew's 38 to move the sprockets away from extensions 31; thecross-plate will have an increased retractive movement under theinfluence of cylinder 35-, so as'to -permit a larger quantity of dough to enter the individual scaling pocketsand, 00119- versely, the closer to the extensions 31 the sprockets are positioned the less dough can enter said pockets, as the plungers 22 can only beforced inwardly of their pockets until their stems '30 contact cross-plate 32.. While each screw 38 is shown provided with a crank, one crank will suflice, although it is preferred to have a crank at each side of the machine'forthe convenience of the attendant. It is also preferred to provide an index for denoting the adjustments made with screws 38. Such indexing mechanism may take the form of a gauge bar 44 having graduations 45 thereon and slidable in a tubular housing 46 by means of an annular flange 4'! on one-of sleeves 40 engagingin'a recess in said bar. The gradu-' ation in registry with the end of tubular hous ing 46 denotes the relative position of sprockets As best illustrated in Figs. 1, 3 and 4, cylinder 35 for actuating cross-plate 32 is mounted below the scaling pockets and the lower portion of the pocketwall is extended rearwardly or outwardly to form a support for'the sectional bracket or guide in which the stems 30 of plungers 22 are slidably supported. The lower portion 3| of the bracket or guide may be rigidlyvfixed to the pocket wall extension, but, as previously described, the top-plate 3| may be detached byre' moving its securing bolt 48. With the top plate removed, and cross-bar 32 retracted, the plungers 22' can readily he slipped out of their pockets because, as pointed out, the plunger stems are not attached to said'cross-plate, but are only adapted to abut against said plate. In this connection, in lieu of the plunger stems actually engaging cross-plate 32;the latter may be pro' vided with adjustable stops or contact pieces 32% which will permit closer regulation of th retractivemovement permitted plungers 22. I l The pistons in the several actuating cylinders maybe hydraulically operated; as'shown diagrammatically in Figs; 1 and2. Actuating fluid from supply tank 49 can beforced by a pump 50 throughline 5| in which there is a relief'valve 52, to a' two way valve-53 from which the fluid can flow' either through-line 54 to one end of cylinder 29or through line 55 to the other end of said cylinder. The fluid drains through one of -.'said lines 54 .or :55 from one end :of the cylinder back to valve 53, when ;fluid is being supplied to the opposite :end "of said cyiindenwand from said valve 53 the drained :fluid returns through line 55 to the supply tank. Operation of valve 53 is controlled by an actuating cam 51. Act-uating fluid for cylinder 26 controlling the rocking vof transfer head 11, is supplied thereto from tank 49 by a pump 58 through line 59 having a relief valve-6n therein, to and through a two-way controlvalve 9| which directs the fluid either through lines 62 and 63 tothat end of the cylinder 26, which will effectmovement of the transfer head .from its charging position .(Fig. 1) to its d-ischarging position (Fig. 2), or through line 94 to a pressure controlled valve .65., and then through line 66 to that end of cylinder '26 which will effect the return of the transfer. head from its discharging position to itscharging position,v

.lief valve 66 drains to tank 49 through .line 69 e and relief valve 52 drains to said tank through line 10.

Fluid for cylinder 35, controll the pocket plungers 22 in the scalingpockets, is supplied to said cylinder either through a branch 62 of line 62, or through pressure controlled .by-pass valve 65 and line 1|. The function of pressure controlled by-pass valve 65is'to control the flow of fluid through lines '69 and 1|. to cylinders 26 and 34, in such a manner as to insure movement of the transfer head away .from its discharging position to clear the pockets [2 before plungers 22 are advanced to discharge the lumps of dough from said pockets. That is,when'fluid is admitted to line 64 and valve 65, itwill first be directed by that valve through line 69 which communicates with that end of cylinder 26 which results in the transfer head being moved from its discharging to charging position. After the head reaches its charging position pressure builds up in lin 66 and causes additional fluid pumped to the valve to be directed through line 1|, with "the result that piston 35 in cylinder 34 is actuated to discharge the lumps of dough from pockets l2.

'The several valves are obtainable on the open market. In the case of the control valve *53, the

flow of fluid from the supply line 5| to the two lines 54,55 is controlled by the plunger 53 and cam 51, the plunger having ports -I134 and H therein for placing line 5| in communication with either line 54 or line 55. The plunger is cut away intermediate its ends .to provide aspace 1'96 with which drain line v56 communicates and, when one of lines 54, 55 is incommunicati'on with supply line 5|, the other of said lines '54, 55 is in communication with said space andthe drain line. Spring 191 tends :to force the plunger toward cam 51. Valve 6|, with its control plunger fil functions in the same-manner.

The pressure-controlled :by-pass valve '95 is illustrated in Fig. -6. It comprises :a'zduct 12 extending therethrough and to the opposite ends of which lines 64, 66 are connected. A lay-pass passage 13 extends from duct 12 and communh cates with another duct 14 to which line 1|-is connected, and there is a second passage 15 which connects ducts 12, .14. Flow .offluid from duct 12 to duct 14 through passage 13 is con- .trolled by a ball valve '16 normally held closed by a spring 11, the pressure of said spring :on the ball for seating thelattcr being regulated by a screw 18.. As will :beunderstood, spring 111is .adfiusted tohold ball valve 16c1osed with a 'pressurecorresponding to that which it is desired :to d lace on plunger in cylinder :26 through line 69,-".before fluid is delivered through line H to cylinder *for ;dischargingthe lumps i-romthe scaling pockets. Flow of fluid through passage 15 between ducts 12, His controlled by a-ballva'lve 19 normally held closed by a spring .80,- although pressure in duct 12, when :line 64 :is in communication with main supply line 59, will also tend to close this ball valve. However, when control valve 6| is actuated to connect lines 62 62;, from one end of cylinder 35, with the main supply line 59, and line 64 to drain 68. the pressure of fluid forced from the opposite end 10f cylinder 35 through l-lil'le 1| connected to duct .1-4swill unseat-ball valve .129, thus establishing communicationbetweensline 1| and drain 8.

The construction of :relief valve 52 and 69 is illustrated in Fig. '7. These valves comprise a passage .82, to which the sections of the main supply lines 5| and 59 are connected, and bypassport 83 in said passage communicates with an outlet 84 to which the drain pipe (either 69 sor'lll) is connected. Port 83 is normally closed by a gplunger valve 85 held against its seat by raispring- 86, as well as by the pressure of the fluid :being pumped, by reason of the fluid having access to the upper surface of the plunger lithr ough a port 81 in an enlargement 88 on the yalve st-em. in order to prevent abnormal pres- .sure being imposed on the upper surface of this enlargement, the casing of the valve is also formed with :a passage 89 which communicates throng-ha valve-controlled passage 99 with a -.,check valve 94 held against its seat 95, the pres- :sure ;of the spring on said check valve being regulated by a screw .99 which may be provided .witha lock nut -91. By properly adjusting screw .9.6 ,,flu-id pressure will build up in the space above enlargement 88 until :sufficient pressure is created tounseat valve 94, whereupon additional fluid flowing through passage 81 can escape through passage .89, port '90, passage 9|, chamber 92 .and the passage 93 through the valve stem to 1, i1o;rt..s4 and the attached drain line.

0n the otherhand, if, for any reason, excessive pres- .s'ureshould build up in the system at any-point heyond .the relief valve, as soon as the back pressure exceeds the normal pressure .on the .upper surface of enlargement 88, valve .85 will be unseatedand relieve .such back pressure.

.Asmore'fully illustrated in Fig. 9, cylinder 2-9 for actuating the plunger 2| in transfer head compartment I6, is preferably provided with ,means .for varying or regulating the amount of ,dough that can be withdrawn .from hopper l0 into said compartment. This is .quite important j'because, .if the amount of dough deposited :in

compartment 19 is such that substantially all of it .cannot be accommodated in the pockets 1,2 thereQis danger that a substantial quantity might remain in compartment l6 for an indefinite period .of time, under which circumstances it is likely to be detrimentally afiected during the subsequent operation of the machine. This-con- .trol or regulation may be accomplished by pro- -into the pockets.

vidingan adjustable 'stop' in the form of a screw 98 extending through the end of cylinder 29-to limit the retraction of piston 28' and, consequently, the retraction of plunger 2l in compartment [6. A packing'gland 98 may be provided for the' screw 98 which is threaded through'an'extension Won the cylinder and,'if desiredga sight -window IM may be provided inthe extension through which graduations I08 are visible, for determining thepos'ition 'of the-"screw axiallyof the cylinder. At its outer end,"sc'rew SIB-"is provided with'a knurled'nut l02'f0r facilitating adjustment thereof and, preferably,- a lo'cking nut -l'3 is also 'provided intermediate the operating nut I02 and extension I00. As will be appar- 'ent, adjustment of screw-"98 axially of the cylinder 29 will vary the 'distance' piston 28 can beretracted so that the quantityof dough admitted to compartment I 6 can readily be varied in accordance with the" adjustment of the indexing mechanism "controlling the'- retraction of plungers 22 in the scaling pockets l2. With the transfer head ll positioned'as 'shown :in' Fig. 1, thecycle' of operations of the m'achin'e is as follows: Fluid flows: from pumplitl' through: line valve 53 and line 55 to the upper end of cylinder 29, to fiirtlierretract plunger 2| in the transfer head chamber l5 to fill the latter with an increment of dough from hopper I0. At the same time, fluid 'drainsfrom the lower end of cylinder 29 through line 54. The timing of the cam-operated valves is suchthat, after the chamber has been filled, the valve 6| will be actuated to place lines 62, 63fto' cylinder 2 6,an'd

lines '62, 62 to' 'cylinder 35, in communication- 'withmain supply line 59. This will-cause fluid to enter cylinder 26 at theright hand endand to enter cylinder 35 at the left hand end '(as viewed in Figs. 1 and 2), sothat segment Hi, to-

gether with the'transfer head, is rocked to position chamber 16 in registry with the scaling ockets" and the cross-plate 32 to be moved against the stops or sprockets 39, as shown in Fig. 2.

During this movement of the transfer h eadand cross-plate, fluidwill drain 'from cylinderffl "through line 6%. jaridfrorn -cylinder 35 ,throiigh line H. With the trainsfrxhead in this position,

as shown inFig/IZ, valve 53 directs fluidthrough line 54 to advance plunger 2|! and force the dough from transfer head chamber [Shinto the several fsca'li'ng pockets, The amount of dough resse into each pocket will depend upon the pressure imposed on plunger Zl' in chamber I5 and the point to which'the' sprockets 39 have beenad- 'justed to limit the retraction r cross-plate 3'2 which, in turn, limits the retraction of plungers 22 underthe influence of the dough being forced After the'pockets |2 have beeniilled, valve 51 is actuated'to'reverse the flow of fluid to cylinder.

26, fluid being suppliedto thatcylinder through line 54, valve 65 and line 66, so that rack lfl rocks segment !9' andthe transfer head ,tofreturnlit to its original orcharging position, as shown' in Fig. 1. When the head has thus been restored.

to charging position, the pressure controlleld valve admits fluid to line H, which causes ithe piston incylinder 35 to advance the cross-plate 32 and plungers 22 to discharge the lumps from the'scaling pockets. During this intervaL the chamber in the transfer head will be filled with e n rement of dduehfc the next c cle operations. 4 I h With the present construction, itwill be apparent that a minimum number of moving parts "to said pocketand means are exposed and that, byhaving the measuring or scaling pockets stationary, with the indexing or adjusting mechanism for the plungers in scaling pockets car-ried on this fixed portion of the 'machine, the safety of the attendant is' materially increased; r

- Another advantage of the present construction is that the so-called knife, commonly found in machines of this type for severing dough delivered fromthe hopper into a'co'mpression box, is

dispensed with in-' the sense that, in the present machine, the transfer .head, itself, constitutes or performs the function of such a knife.

Also, the provision of a rocking transfer head, which might be said to serve the purpose of both the compressionbo'xl and knife, in combination with the stationary scaling pockets, results in a rather overall compact structure.

It will be appreciated that the transfer head, the plunger therein, and the scaling pocket plungers need not necessarily be hydraulically ac- ,tuatedfbut hydraulic operation is preferred as itlnot .only lends to compactness in the strucjture, 'but it renders the machine, highly susceptible to minute adjustments in the handling of doughs of difierent'plasticity or densities. For instance,, merely by adjusting the tension on springl8 in pressurecontrolled valve 65, more or .lesspressure can beexerted on the dough in the scaling pockets'; Wha tI.clai m is:

.. .m a dough diyidehthe combination of a hopper a fixed scaling pocket, dough-receiving and discharging means for transporting and transferring successive incrementsof dough from the hopper, into said .pocket, and meansior discharging dough .fromsaid pocket. ,2. Ina dough divider, the combination of a hoppenhaving-I a .discharg'e opening, a series of SCa1ingpockets,-a movable transfer head having a. dough. compartment therein, means for moving said head to ,alternatelyposition said compartment Qinregistry-with said hopper opening and said pockets means for forcing dough from saidcompartment into saidpockets,-and means for,dischargingthev dough from said pockets.

i 3. In a dough: divider, the combination of a hopper having a discharge opening, a-fixed scaling pocket, an oscillatory member having a dough compartment-therein movable into registry with said hopper opening and said pocket for transferring increments: ofdough from said hopper for removing the dough from said pocket.

-: -4. In a dough dividerpthe combination.- of a hopper having a discharge opening, a series'of scaling pockets, a transfer head having a dough compartment therein =movable alternately into.

ciprocating said plunger to force dough from said compartment into' said pockets, plungers in said pockets, and a'hydraulic cylindenfor actuating said pocket plungers to discharge dough from the pockets.

6. In a dough divider, the combination of a hopper having a discharge opening, a series of stationary scaling pockets, an oscillatory transfer head having a dough compartment therein movable alternately into registry with said hopper opening and pockets, hydraulically-operated means foroscillating said head, a hydraulically operated plunger-in said compartment for fore-- ing dough from the compartment into said pocl ets, hydraulically operated plungers in said pockets for discharging dough therefrom, andmeans for controlling said hydraulic oscillating means for the transfer head and the hydraulically operated pocket plungers to render the-lat-- ter operable to empty the pockets only when said compartment is in registry with said hopper opening.

7. In a dough divider, the combination of a hopper opening with said pockets unobstructed by said head, means for discharging dough from said compartment into said pockets, plungers in said pockets, hydraulically operated pistons for oscillating said head and advancing said plungers to discharge dough from said pockets, a pump for supplying fluid pressure to said pistons, and means controlling the flow of fluid to the pistons comprising means for preventing operation of the pocket plunger piston until a predetermined pressure is applied to the head oscillating piston.

8. In a dough divider, the combination of a stationary divider head having an arcuate inner surface, a hopper mounted on said head having an opening discharging into the interior of said head, a series of scaling pockets rigidly mounted on said head and opening into the interior of the latter, a transfer head within said divider head having an arcuate exterior conforming to the arcuate surface of the divider head, said transfer head having a dough compartment therein, means for oscillating said transfer head to alternately position said compartment in registry with said hopper opening and said pockets, and means for ejecting dough from said compartment into said pockets.

9. In a dough divider, the combination of a divider head, a series of fixed scaling pockets, ejector plungers in said pockets, each plunger having a stem thereon, a pressure-operated plate engageable with but detached from said stems for advancing said plungers in their pockets and for limiting the retraction of the plungers in their pockets, supports fixed with respect to the pockets on which said plate is slidable longitudinally of the pockets and stops carried by said supports and adjustable longitudinally of the pockets engageable with said plate for limiting the retraction of said plate and plungers.

10. In a dough divider, the combination of a pair of fixed scaling pockets, an ejector plunger having a stem in each pocket, a reciprocatory plate engageable with said stems for advancing the plungers and for limiting the retraction thereof, supports rigidly mounted at opposite sides of said pair of pockets, said plate being slidable on said supports, abutments on said supports for limiting retraction of said plate, and means for adflust'ing said abutmentsonrsaid supports longitudinally of the pockets.

1-1'. In a-dough divider, the combinationof a.

pair'of fixed scaling pockets, plungers slidable" in said pockets, stems on said plungers projecting from the pockets, supports atopposite "sides of said pockets, aplate slidable on said supports longitudinally of the" pockets'and positioned the path of said plunge-r stems, stops adjustable" on said supports longitudinally of tiie-pockets for" limiting movement of said plate, and means for simultaneously adjusting said stops. i 1

12. In adough divider,- the combinationof a pair of stationary scaling pockets, plungers slidable in said pockets, plunger stem's projecting fromsaid pockets; fixed supports at opposite' slde's of said pockets, adjusting screwsthreadedin saidsupports for movement longitudinally of the pockets, at stop-plate slidable onsaid supports longitudinally of" the pockets: and engageabl'e said plunger stemsg-means for advancingand re:

tracting saidstep plate, an'd abutments on said screws for limiting the retractioriof said stopplate.

-13. In a dough divider, the combination era slidable in said-pockets, stems on said plungersexpo'sed at the exterior of the divider, a'plate at the exterior of the machine engageable with said stems, means for reciprocating said plate longitudinally of the pockets, abutments carried by fixed portions of the divider at the exterior thereof for limiting the retraction of said plate, and means for adjusting said abutments longitudinally of the pockets.

14. In a dough divider, the combination of a pair of stationary open-ended scaling pockets, plungers slidable in said pockets, stems on said plungers projecting from one end of the pockets, fixed supports at opposite sides of said pockets, adjusting screws threaded in said supports for movement longitudinally of the pockets, a plate at the exterior of the machine engageable with said plunger stems, means for advancing and retracting said plate, and stops on said adjusting screws for limiting the retractive movement of said plate.

15. In a dough divider, the combination of a pair of stationary open-ended scaling pockets, plungers slidable in said pockets, stems on said plungers projecting from one end of the pockets. fixed supports at opposite sides of said pockets, adjusting screws threaded in said supports for movement longitudinally of the pockets, a plate at the exterior of the machineengageable with said plunger stems, means for advancing and retracting said plate, stops on said adjusting screws for limiting the retractive movement of said plate, and a graduated indexing rod connected to and movable in unison with one of said adjusting screws.

16. In a dough divider, the combination of a stationary divider head, a series of scaling peck,-

ets rigid with said head, ejector plungers in sai dg,

pockets, stems on said plungers, the lower portions of the pocket walls projecting beyond the having a dough, compartment therein inwhich dough is transferred from said hoppepto said:

the extent. of, the retractive movements of said nistqnan ir u n 1 i 19. In a dough divider, the combination of a hopper, a fixed, scalingvpocket, a transfer head havingfla dough compartment. therein in which doughv is transferred, from said ,hoppento said pocket,- a plunger in said .compartmentfor dis: charging dough therefrom into said; pocket, fluid actuated means for reciprocating said plunger com is n a-c linder having a piston therein connected to said plunger, and a stopfor limiting the .retraction of saidpiston and plunger, said stopbeing adjustable axially; of said cylinderfor varying the retractive movement permitted said piston and plunger.

20, Ina dough divider, the combination of a hopper, a fixed scaling pocket, a transfer head having a dough compartment therein in which dough is transferred from said hopper to said pocket, a plunger in said compartment for discharging doughtherefrom into said pocket, fluid actuated means for reciprocating said plunger comprising a cylinder having a piston therein connected to said plunger, a stop screw extending axially of said cylinder engageable with said piston for limiting the retraction of the latter, and means for adjusting said stop axially of the cylinder for varying the retractive movement permitted said piston.

21. In a dough divider, the combination of a hopper having a discharge opening, a scaling pocket remote from said discharge opening, a transfer member having a dough compartment therein in which dough is received from said hopper, means for moving said transfer member to position saiddough compartment in registry with said scaling pocket, means for moving dough from said compartment into said pocket, and

CHARLES B. SEEM. 

